43 research outputs found

    REGULATION OF PERIPHERAL B-LYMPHOCYTE DIFFERENTIATION IN RECURRENT MISCARRIAGE

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    The important role of immune disorders in recurrent miscarriage has been proven. Clarification of the character of B-lymphocyte differentiation and its regulation factors in women with threatened miscarriage and recurrent miscarriage in history is an urgent problem, since it will reveal the immune mechanisms of the pathogenesis of this pathology. Purpose: to establish the features of B-lymphocyte differentiation and factors of its regulation in women with a history of recurrent miscarriage and threatening spontaneous miscarriage at the time of examination.Were examined pregnant women aged 18-40 years at a gestation period of 5-12 weeks. The main group consisted of 60 pregnant women with a threatening spontaneous miscarriage at the time of examination and a history of recurrent miscarriage. As a control, 35 pregnant women with uncomplicated pregnancy were examined. The comparison group consisted of 25 primary pregnant women with threatened spontaneous miscarriage at the time of examination. The material for the study was peripheral venous blood. Subpopulations of B-lymphocytes CD19+, CD19+ IgD+, CD20+IgM+, CD20+IgG+ were determined by flow cytometry; CD19+CD20- CD38+, CD19+CD27- , CD19+CD27+. Serum levels of BAFF and APRIL were assessed by enzyme-linked immunosorbent assay.In the main group, an increase in the proportion of B-cells, CD20+IgM+-lymphocytes and memory cells was recorded in the peripheral blood, along with a decrease in the level of naive cells and plasma cells. In the comparison group, an increase in the proportion of immature IgM+B-cells, circulating memory cells, along with a decrease in naive B-lymphocytes, was registered. in the main group there was a pronounced decrease in the serum BAFF level compared with the control and comparison groups. Analysis of the APRIL content showed a pronounced downward trend in groups with threatened miscarriage relative to healthy pregnant women. Thus, threatening habitual and sporadic miscarriages were associated with a shift in the differentiation of B-lymphocytes towards immature forms and a lack of regulatory influence of BAFF and APRIL, which is reflected in the disruption of B-cell homeostasis and weakening of humoral effector mechanisms at the systemic level. The revealed changes may indicate a single mechanism for the development of a threatening spontaneous miscarriage, the severity of which increases with repeated loss of pregnancy. These changes can lead to an increase in effector cytotoxic mechanisms and an increase in proinflammatory cytokines, which can lead to the development of damaging reactions in the fetoplacental complex, which can be reflected in the clinical picture of the threat of termination of pregnancy

    Impact of Treadmill Running and Sex on Hippocampal Neurogenesis in the Mouse Model of Amyotrophic Lateral Sclerosis

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    Hippocampal neurogenesis in the subgranular zone (SGZ) of dentate gyrus (DG) occurs throughout life and is regulated by pathological and physiological processes. The role of oxidative stress in hippocampal neurogenesis and its response to exercise or neurodegenerative diseases remains controversial. The present study was designed to investigate the impact of oxidative stress, treadmill exercise and sex on hippocampal neurogenesis in a murine model of heightened oxidative stress (G93A mice). G93A and wild type (WT) mice were randomized to a treadmill running (EX) or a sedentary (SED) group for 1 or 4 wk. Immunohistochemistry was used to detect bromodeoxyuridine (BrdU) labeled proliferating cells, surviving cells, and their phenotype, as well as for determination of oxidative stress (3-NT; 8-OHdG). BDNF and IGF1 mRNA expression was assessed by in situ hybridization. Results showed that: (1) G93A-SED mice had greater hippocampal neurogenesis, BDNF mRNA, and 3-NT, as compared to WT-SED mice. (2) Treadmill running promoted hippocampal neurogenesis and BDNF mRNA content and lowered DNA oxidative damage (8-OHdG) in WT mice. (3) Male G93A mice showed significantly higher cell proliferation but a lower level of survival vs. female G93A mice. We conclude that G93A mice show higher hippocampal neurogenesis, in association with higher BDNF expression, yet running did not further enhance these phenomena in G93A mice, probably due to a ‘ceiling effect’ of an already heightened basal levels of hippocampal neurogenesis and BDNF expression

    Agroecological status of soils of Kizlyar pastures

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    Development and experimental basis of local subretinal technique of xenogenic’s injection stem cells labelled by magnetic perticles

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    Purpose: is to develop a technique for local subretinal injection of xenogeneic stem cells labeled with magnetic particles and to prove experimentally its effectiveness.Material and methods: We used a line of stem cells HEK-293 GFP,labeled with magnetic particles. The study was made on 84 eyes of 42 chinchilla rabbits 6 months of age, the weight were from 2.5 to 3.5 kg. All right eyes were experimental (42 eyes) and all left eyes (42 eyes) were the control group. In the experimental group we used original complex of polymer elastic magnetic implant (PEMI) with laser probe and fixed it to the sclera, then we made a median vitrectomy and injected HEK-293 GFP under the retina using a specially designed dispenser. In the control group PEMI was not fixed. We examined animals using biomicroscopy, ophthalmoscopy, ultrasound scanning, optical coherence tomography  OCT), computer tomography (CT), morphological study (cryohistological sections) in 1, 3, 5, 7, 14 day and 1 month after surgery.Results: According the results of biomicroscopy in observation periods up to 3 days the vascular injection was visualized in the area operation. According the results of ophthalmoscopy and ultrasound scanning in 1 day the local retinal detachment was visualized in the area of local injection of the stem cells, which was not visualized in terms of further observations. CT helped us to confirm the local place of PEMI fixation. The morphological study results showed that cells were located in the subretinal space up to 14 days in the experimental group, and only up 3 days in the control group.Conclusion: The suggested surgical technique enables to control the injection of cells into the subretinal space, reduces the risk of tissue damage and exit cells in the vitreous space. The suggested methodology allows the fixing of the cellular material in the local place of the injection and enables to predict cells`s movement

    LOCAL SUBRETINAL INJECTION TECHNIQUE OF XENOGENIC STEM CELLS LABELLED BY MAGNETIC PARTICLES IN EXPERIMENT

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    Purpose. To develop a technique for local subretinal injection of xenogeneic stem cells labeled with magnetic particles and to prove experimentally its effectiveness.Material and methods. We used a line of stem cells HEK-293 GFP, labeled with magnetic particles. The study was made in 84 eyes of 42 chinchilla rabbits aged 6 months, the weight was from 2.5 to 3.5kg. All right eyes were experimental (42 eyes) and all left eyes (42 eyes) were in the control group. In the experimental group we used original complex of polymer elastic magnetic implant (PEMI) with a laser probe and fixed it to the sclera, then we made a median vitrectomy and injected HEK-293 GFP under the retina using a specially designed dispenser. In the control group PEMI was not fixed. We examined animals using biomicroscopy, ophthalmoscopy, ultrasound scanning, optical coherence tomography (OCT), computer tomography (CT), morphological study (cryo-histological sections) 1, 3, 5, 7, 14 days and 1 month after surgery.Results. According to the results of biomicroscopy in observation periods up to 3 days the vascular injection was visualized in the area operation. According to the results of ophthalmoscopy and ultrasound scanning during the first day the local retinal detachment was visualized in the area of local injection of the stem cells, which was not noted in terms of further observations. CT helped us to confirm the localization of PEMI fixation. The morphological study results showed that cells were located in the subretinal space up to 14 days in the experimental group, and only up 3 days in the control group.Conclusion. The developed surgical technique enables to control the injection of cells into the subretinal space, reduces the risk of tissue damage and exit cells in the vitreous space. The suggested method allows to fix the cellular material in the local place of the injection and enables to predict cells` movement

    Effects of histone deacetylation inhibition on neuronal differentiation of embryonic mouse neural stem cells

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    Neural stem cells (NSCs) are multipotent cells that have the capacity for self-renewal and for differentiation into the major cell types of the nervous system, i.e. neurons, astrocytes and oligodendrocytes. The molecular mechanisms regulating gene transcription resulting in NSC differentiation and cell lineage specification are slowly being unraveled. An important mechanism in transcriptional regulation is modulation of chromatin by histone acetylation and deacetylation, allowing or blocking the access of transcriptional factors to DNA sequences. The precise involvement of histone acetyltransferases and histone deacetylases (HDACs) in the differentiation of NSCs into mature functional neurons is still to be revealed. In this in vitro study we have investigated the effects of the HDAC inhibitor trichostatin A (TSA) on the differentiation pattern of embryonic mouse NSCs during culture in a minimal, serum-free medium, lacking any induction or growth factor. We demonstrated that under these basic conditions TSA treatment increased neuronal differentiation of the NSCs and decreased astrocyte differentiation. Most strikingly, electrophysiological recordings revealed that in our minimal culture system only TSA-treated NSC-derived neurons developed normal electrophysiological membrane properties characteristic for functional, i.e. excitable and firing, neurons. Furthermore, TSA-treated NSC-derived neurons were characterized by an increased elongation and arborization of the dendrites. Our study shows that chromatin structure modulation by HDACs plays an important role in the transcriptional regulation of the neuronal differentiation of embryonic NSCs particularly as far as the development of functional properties are concerned. Manipulation of HDAC activity may be an important tool to generate specific neuronal populations from NSCs for transplantation purposes. (c) 2006 IBRO. Published by Elsevier Ltd. All rights reserved

    Telomerase Reverse Transcriptase Increases Proliferation and Lifespan of Human NK Cells without Immortalization

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    NK cells are the first line of defense against viruses and malignant cells, and their natural functionality makes these cells a promising candidate for cancer cell therapy. The genetic modifications of NK cells, allowing them to overcome some of their inherent limitations, such as low proliferative potential, can enable their use as a therapeutic product. We demonstrate that hTERT-engineered NK cell cultures maintain a high percentage of cells in the S/G2 phase for an extended time after transduction, while the life span of NK cells is measurably extended. Bulk and clonal NK cell cultures pre-activated in vitro with IL-2 and K562-mbIL21 feeder cells can be transduced with hTERT more efficiently compared with the cells activated with IL-2 alone. Overexpressed hTERT was functionally active in transduced NK cells, which displayed upregulated expression of the activation marker HLA-DR, and decreased expression of the maturation marker CD57 and activating receptor NKp46. Larger numbers of KIR2DL2/3+ cells in hTERT-engineered populations may indicate that NK cells with this phenotype are more susceptible to transduction. The hTERT-modified NK cells demonstrated a high natural cytotoxic response towards K562 cells and stably expressed Ki67, a proliferation marker. Overall, our data show that ectopic hTERT expression in NK cells enhances their activation and proliferation, extends in vitro life span, and can be a useful tool in developing NK-based cancer cell therapies

    Using of magnetic particles for fi xing of isolated cells in subretinal transplantation

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    Purpose: This study focuses on the development of the method of introduction of magnetic microparticles in the cytoplasm of HEK-293 cell line with their subsequent fixation under the retina of the eye.Materials and Methods. Magnetic particles (d = 2,8 mm) were treated with pluronic and injected into the cytoplasm of HEK-293 cell line, expressing GFP. The surgery was made under general anesthesia. HEK-293 containing magnetic particles were injected into the subretinal space of rabbit eyes (eyes 96, 48 rabbits) using original dosing device. In the experimental group (48 eyes, 24 rabbits) we fixed episcleral magnetic implant to hold cells in local place. In the control group (48 eyes, 24 rabbit) magnetic implant was not fixed. After the surgery all animals were examined using biomicroscopy, ophthalmoscopy with photographic recording, ultrasound, computed tomography and morphological study in certain terms (1, 3, 5, 7, 14, 21 day and 1 month).Results: The introduction of the magnetic particles into the cytoplasm of HEK 293 cell line has no effect on cell viability. HEK-293 containing magnetic particles remains in the place of injection during 21 days in rabbit eyes, where the magnetic implants were fixed (in control group during 3 days). Conclusions: Using of cells containing magnetic particles with fixation of the magnetic implant can be a promising method for cell therapy for the treatment of retinal diseases
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